Automorphic L-function
In mathematics, an automorphic L-function is a function L(s,π,r) of a complex variable s, associated to an automorphic form π of a reductive group G over a global field and a finite-dimensional complex representation r of the Langlands dual group LG of G, generalizing the Dirichlet L-series of a Dirichlet character and the Mellin transform of a modular form. They were introduced by Langlands (1967, 1970, 1971).
Borel (1979) and Arthur & Gelbart (1991) gave surveys of automorphic L-functions.
Properties
Automorphic L-functions should have the following properties (which have been proved in some cases but are still conjectural in other cases).
The L-function L(s,π,r) should be a product over the places v of F of local L functions.
- L(s,π,r) = Π L(s,πv,rv)
Here the automorphic representation π=⊗πv is a tensor product of the representations πv of local groups.
The L-function is expected to have an analytic continuation as a meromorphic function of all complex s, and satisfy a functional equation
- L(s,π,r) = ε(s,π,r)L(1 – s,π,r∨)
where the factor ε(s,π,r) is a product of "local constants"
- ε(s,π,r) = Π ε(s,πv,rv, ψv)
almost all of which are 1.
General linear groups
Godement & Jacquet (1972) constructed the automorphic L-functions for general linear groups with r the standard representation (so-called standard L-functions) and verified analytic continuation and the functional equation, by using a generalization of the method in Tate's thesis. Ubiquitous in the Langlands Program are Rankin-Selberg products of representations of GL(m) and GL(n). The resulting Rankin-Selberg L-functions satisfy a number of analytic properties, their functional equation being first proved via the Langlands–Shahidi method.
In general, the Langlands functoriality conjectures imply that automorphic L-functions of a connected reductive group are equal to products of automorphic L-functions of general linear groups. A proof of Langlands functoriality would also lead towards a thorough understanding of the analytic properties of automorphic L-functions.
References
- Arthur, James; Gelbart, Stephen (1991), "Lectures on automorphic L-functions", in Coates, John; Taylor, M. J., L-functions and arithmetic (Durham, 1989) (PDF), London Math. Soc. Lecture Note Ser. 153, Cambridge University Press, pp. 1–59, doi:10.1017/CBO9780511526053.003, ISBN 978-0-521-38619-7, MR 1110389
- Borel, Armand (1979), "Automorphic L-functions", in Borel, Armand; Casselman, W., Automorphic forms, representations and L-functions (Proc. Sympos. Pure Math., Oregon State Univ., Corvallis, Ore., 1977), Part 2, Proc. Sympos. Pure Math., XXXIII, Providence, R.I.: American Mathematical Society, pp. 27–61, doi:10.1090/pspum/033.2/546608, ISBN 978-0-8218-1437-6, MR 546608
- Cogdell, James W.; Kim, Henry H.; Murty, Maruti Ram (2004), Lectures on automorphic L-functions, Fields Institute Monographs 20, Providence, R.I.: American Mathematical Society, ISBN 978-0-8218-3516-6, MR 2071722
- Gelbart, Stephen; Piatetski-Shapiro, Ilya; Rallis, Stephen (1987), Explicit constructions of automorphic L-functions, Lecture Notes in Mathematics 1254, Berlin, New York: Springer-Verlag, doi:10.1007/BFb0078125, ISBN 978-3-540-17848-4, MR 892097
- Godement, Roger; Jacquet, Hervé (1972), Zeta functions of simple algebras, Lecture Notes in Mathematics 260, Berlin, New York: Springer-Verlag, doi:10.1007/BFb0070263, ISBN 978-3-540-05797-0, MR 0342495
- Jacquet, H.; Piatetski-Shapiro, I. I.; Shalika, J. A. (1983), "Rankin-Selberg Convolutions", Amer. J. Math. 105: 367–464, doi:10.2307/2374264
- Langlands, Robert (1967), Letter to Prof. Weil
- Langlands, R. P. (1970), "Problems in the theory of automorphic forms", Lectures in modern analysis and applications, III, Lecture Notes in Math 170, Berlin, New York: Springer-Verlag, pp. 18–61, doi:10.1007/BFb0079065, ISBN 978-3-540-05284-5, MR 0302614
- Langlands, Robert P. (1971) [1967], Euler products, Yale University Press, ISBN 978-0-300-01395-5, MR 0419366
- Shahidi, F. (1981), "On certain "L"-functions", Amer. J. Math. 103: 297–355, doi:10.2307/2374219